According toTariel, he (Tariel) figured Tesla out.
https://www.youtube.com/watch?v=hofuRiMdrDESo here we have nearly 24 minutes of agony because no one will admit to figuring Kapa out.
Transcript below.0:03
If we had like 150 meters of wire...
0:06
There's a transformer booth there. We'd take this and...
0:08
... use the earth-ground from there.
0:11
Now we wrap it around here
0:20
Temo!
0:21
Come over here, please
0:24
Ok, let's go...
0:27
We need pliers
0:28
Temo, please bring the pliers
0:30
wait, he's bring it now
0:32
Now let's check that there's nothing in there...
0:36
It's less than 4 Ohms, a very good earth ground
0:38
This is good earth ground because a metal pipe runs for many kilometers, there's water there.
0:45
It's a big mass for grounding and there's no more ground in here.
0:47
Otherwise, we need to ground to the Neutral.
0:48
The greater the mass, the better the ground.
0:52
Turn on the water.
0:55
It's a regular faucet.
1:00
Pour the water from above to make sure it has a good contact.
1:05
No, not there. On top of the wire. Bring the live wire tester.
1:14
It shows that there's nothing here.
1:21
Later we'll see that the same live wire tester would light up in the presence of voltage.
1:30
That's it.
1:32
Let's go
1:33
This same wire goes here...
1:35
We'll lift that cable eventually
1:42
I wanted to do this...
1:44
Take it and fix here , to make sure it's at the top.
1:48
But it's still visible anyway, so...
1:58
Just a min, Vazha is also coming in.
1:59
Tariel?
2:02
Izo and Vazha are coming in and let's wait for them so that they can see it as well. They're at the front door.
2:11
Come in, please. Dear Vazha...
2:18
Tariel, please show what you have replaced here, due to water getting into it.
2:23
This module has been replaced entirely. We replaced it here.
2:30
Посмотри, пожалуйста.
2:32
We pulled this out and started it directly without a socket.
2:35
We inserted a straight wire.
2:38
The socket was for show, like, look, it goes in here.
2:41
Here the ground is connected to the device.
2:44
And now we...
2:46
We'll turn it on afterwards, of course... Temo, come over here, let's do this together. Bring the tape as well.
2:54
Hopefully, this won't cause any problems.
3:02
He's asking for a rough explanation of the device's inner workings
3:10
Ok for this we needed...
3:12
We had an electronic interrupter.
3:16
That circuit burnt out.
3:18
Now we put a regular spark gap.
3:20
It's down there,
3:22
Two contacts
3:23
That's a spark gap,
3:24
it will fire.
3:27
It has a noise.
3:29
Tariel, let's explain in simple terms...
3:32
Ok I'll explain this.
3:37
The primary.
3:38
The primary coil.
3:44
The secondary coil.
3:47
The most important thing now is that when the current enters the primary coil,
3:53
an electromagnetic field is created there.
3:54
The electromagnetic field then acts on the secondary coil.
3:57
Is that small thing where the power enters?
3:59
Comes from this, yes.
4:01
We excite the device using that power.
4:04
As a starter...
4:05
Of course we can do it this way.
4:08
Or we can take this off and connect it directly
4:10
We'll do it either way.
4:13
So the secondary coil...
4:17
a crucial element, essentially. In fact, it's there in Tesla's device as well.
4:22
It's an independent coil...
4:23
But we have simply positioned it in such a way that
4:29
the electromagnetic field of the primary coil acts on it where it is needed.
4:32
So that the vector of the field didn't...
4:35
Yeah...
4:37
And from here the current comes out
4:40
I think it's clear that it first goes through the necessary circuitry
4:45
and it comes out amplified
4:47
But we have our own secrets there, so to speak...
4:51
This is essentially a classic Tesla design.
4:59
But no one could get it to work, because...
5:05
Tesla had a theoretical diagram, right?
5:06
He also had a practical one, which he destroyed.
5:12
Now we come here...
5:14
Well, this circuit does its job, it's attached to the third coil, as we can see.
5:20
Here it already outputs as much current as we need.
5:26
In short, this is what makes it all work.
5:31
We wouldn't see any effect without this, this is where the main action is done.
5:34
and we get 220 volts out of this, correct?
5:36
yes, 220 volts, 50 Hz.
5:39
But we can make 380 volts and 50 hertz, that is, we can also make three-phase current.
5:45
It can be 50 hertz, 60, 80, 100...
5:51
If 220 volts come out here, what does the rest of this do?
5:58
This whole circuit serves this coil.
6:01
There's a heat sink here too.
6:03
Let's do it without that so that there's less wire involved...
6:06
What is this large black thing? That's a heat sink for those two transistors, to cool them down.
6:12
Yes, there's one more beneath it.
6:14
It's pure duralumin, nothing else.
6:20
Do we use 9 volts to start it up?
6:23
Only to start it, yes.
6:26
Then we take it out, right?
6:27
Yes, we take it out, we'll see it now.
6:28
Then how does it stop?
6:31
You plug it again and it stops.
6:49
Here you can calculate. It's 200 watts each.
6:53
It's 3 killowatts...
6:54
Here we have 3 kilowatts and there... are those 1 kWt bulbs? Those are actually two 750 watt bulbs, so...
7:00
4,5 killowatts in total.
7:01
We cannot increase the load any further.
7:06
It should be quiet, but you'll hear a noise here.
7:10
Because we were in a hurry, and I have to leave, we made it a bit differently this time.
7:17
It has a slight sound, but it's usually silent with no noise.
7:21
And what we saw the day before yesterday was designed for 8 kilowatts,
7:25
while today's is for 5 kilowatts.
7:27
But the idea and the system are the same.
7:30
It's a bit loose, be careful with that one.
7:37
We can plug it in using this thing or skip that and plug it directly.
7:59
Nika, can you hold this, please?
8:02
Don't worry dear Vazha, it only has a noise and that's all.
8:07
We need to make sure the cameraman is able to work properly here.
8:09
Tariel, hold on for a sec. Should we take the chairs and carry them out of here?
8:13
That's why I say we should go outside.
8:26
We need this temporarily...
8:29
Just to start it.
8:41
This spark gap - we replaced it.
8:44
We replaced the spark gap. Our electronic one failed.
8:47
Should I turn this on?
8:50
Yes, please do.
8:59
This noise wouldn't be here if we had that electronic one..
9:03
the interrupter.. The load had to be redesigned as well because it was designed for the original module.
9:15
Where's the live wire tester?
9:29
This is spark gap.
9:30
It's there in Tesla diagram as well.
9:32
A spark gap is permissible at this scale.
9:37
But at larger scales it becomes a problem.
9:39
God forbid, it has a bad effect.
9:41
It emits hard ultraviolet and soft X-rays.
9:46
That will have an effect on health.
9:48
But when we use the electronic one, there's no effect on anything.
9:51
Because the first thing they'll check is the electromagnetic field density.
9:57
And they might check for radiation too.
10:00
Because that's the first thing they need to check.
10:03
Excuse me.
10:04
Tariel, let's turn it off and on again.
10:08
I think if I connect it the other way around now, it should turn off, in theory.
10:20
Ok, seems it does not...
10:24
Ok, now we turned it on and nothing happens.
10:27
So you turned it off?
10:29
Yes, I turned it off.
10:34
The system is entirely off. And now we can do this...
10:51
Ok now we can do the following...
10:56
We can turn those light bulbs off
10:59
And we'll have power here constantly.
11:01
What power?
11:02
220 volts and it doesn't consume anything. Nothing is damaged etc.
11:07
Tariel, please don't shut it off. Keep it on for a second.
11:09
Show that he's touching it with his bare hands while the device is running.
11:26
So you're staying calm, everything's fine...
11:33
It's possible to do it on a vehicle too, but there's one small catch - where to find a neutral/ground?
11:41
The question arises: where did he get the neutral?
11:43
He took the engine out of the car, put in an electric motor and the box like this, a bit wider.
11:51
He placed it under the seat, and the car started working.
11:56
Reached a speed of 150 kilometers per hour
11:58
Yeah and back then 150 km was a lot
12:04
The only thing is, if the circuit, let's say a low-quality component or something,
12:10
and it burns out, you just replace it, and it will work again.
12:19
It's better to hold it in your hands...
12:23
Let me do that.
12:26
It's not a problem, it has a buzzing sound and nothing else. It's fully isolated otherwise.
12:32
Please shoot it from below, please.
12:36
(Tariel telling someone his location)
12:51
There is no radiation at all?
12:54
Correct, there's no radiation.
13:03
What's interesting is when you move the whole thing around, those seem to move together as well.
13:12
Tariel, can these move slightly back and forth?
13:15
Be careful to not short those two... If those touch each other, it's over.
13:23
Insulate those...
13:25
We can do that.
13:26
Not needed for now...
13:31
The air cooler doesn't seem to work now.
13:33
No, it won't work now. It gets turned on automatically when it heats up.
13:37
When it warms up a bit, right?
13:38
No, no. Nothing happens before the normal temperature
13:41
When it gets higher than that, then it will work.
13:44
Is 5 kWt a normal load for this?
13:47
The device was built for 10 kWt.
13:53
After the module burnt out, we got scared, as we can't get those components. We need few chips.
14:00
It's designed for 10 kW.
14:03
But we had chips installed here.
14:06
We have model numbers but we can't get them.
14:11
That chip gets installed in that module and then it controls the frequency.
14:41
We can take this off and hook up a TV instead, right?
14:48
Yes, whatever you want up to 5 kWt. 0:14:55.980,1193:02:47.295 It has already be done based on this 9v battery. I wrote a letter to the state commission. We did 200 kWt. They documented it.
15:12
They mentioned that it is revolutionary.
15:15
But then for some unknown reasons, things didn't progress any further...
15:33
How long will the device work?
15:34
It's not limited in that sense. The heat issue is a separate one.
15:38
We turned it on... If no component burns out...
15:45
That's why I say... We didn't test it for...
15:53
No, that's not hot, that's warm, it's normal,
15:56
because lots of current flows into the earth ground.
16:00
But why can we touch it over there?
16:03
Because it's neutral there, not live.
16:05
You should not touch it here.
16:08
We use this (live wire tester) to check for neutral. One of them is Live, the other is Neutral.
16:16
But if it's Neutral, why is it slightly warm?
16:21
It's warm because it's conducting so much current right now.
16:28
This one doesn't heat up.
16:30
Neutral also heats up. When it's a small diameter wire, it heats up.
16:33
Yeah, it's thinner.
16:35
See here, this doesn't heat up.
16:38
It's due to differences in the diameters of the wire.
16:43
Oh ok.
16:45
Neutral needs to be made much thicker anyway.
16:53
If no component burns out it will work for a long time...
16:58
It will last forever?
16:59
Not forever. There's no such component that can work forever.
17:06
Like a computer right?
17:08
Tariel, the second device can be made as a replacement.
17:11
What I'm saying is we didn't perform any longevity tests.
17:19
We don't know how long it will work...
17:22
That's why I offered to build two of these units.
17:28
If one of them fails, it automatically switches to the other. You will still get your electricity
17:34
and in the meantime we'll try to figure out what went wrong.
17:44
So far it works correctly...
18:06
When you turn it off, how do you perform it exactly?
18:12
We turn off the system. Since I initially power it using this battery, giving it a starting pulse...
18:19
Then it turns on and feeds itself and then I can cut the power off there.
18:24
The impulse stops, but it stops in a different place, not there.
18:28
When we get the power, it feeds itself and gives you whatever you need.
18:33
And here we switch it off and
18:35
everything will shut down,
18:37
because where the output current is fed back into the primary, this is where we cut it off.
18:48
Tariel, let's show Merab how the device gets started.
18:51
Sure.
19:11
What would happen if we took the grounding off while it's running?
19:17
I took it off once on a running device, do you guys remember it? And a small electromagnet got burnt out, nothing else.
19:33
Вот смотри сейчас.
19:34
Now check this out. I'm turning this off and it doesn't add brightness to the bulbs over there.
19:39
It stays at the same brightness, giving stable 220 volts.
19:44
We can also turn everything off and then turn them back on one at a time.
19:51
Still, nothing would change.
19:53
It normally shouldn't be the case. As the load increases, the 220 volts should drop to around 180.
19:56
I want to tell you on thing now...
19:58
Power station...
19:59
If they take the load off the way we are doing it here,
20:01
there will be an accident.
20:04
Taking the load off abruptly will cause a failure on the power station. And they spend lots of money building that thing.
20:11
Here, you can light up one bulb or all of them, based on what the device can withstand.
20:19
Let's say, 10 kWt, 1 kWt, 0.5 Ktw.. 200, 100 or 60 watts, it will keep working...
20:30
You can take 10 kWt max from it, or 100 watts, whatever you need.
20:34
It's already too hot...
20:37
And here we have 200 times 6...
20:41
Here we have 3 kWt. So it's 4.5 kWt in total.
20:49
It doesn't actually matter what it gives here, even if it was 100 watts...
20:53
Because it means that the core principle works.
20:57
Now we need to test its longevity.
21:00
Find the weakest parts of it and improve them.
21:05
And then you have the right to give a guarantee when you sell it.
21:10
For that we'd need to install it somewhere as an experiment.
21:17
Now we want to make a 150 kWt version.
21:20
Would everything be bigger in that 150 kWt version? Or only the core module itself?
21:25
All of this would be bigger.
21:27
These would be bigger and the circuits and components will need to be more heavy-duty of course.
21:32
For example, the heat sink here will be much larger because the transistors will be bigger.
21:37
Yeah, will be larger. Everything will be bigger, and the conductivity will be much higher. Every single component.
21:42
It's like in life. If you eat with a big spoon, you need a big throat. If you eat small bites...
21:48
Не работает.
21:49
Camera should get closer and film everything, the spark gap etc.
21:53
It was already done.
21:56
With an electronic contactor, there will be no spark and noise.
22:06
and even now, there is no noise anymore.
22:09
It has already reached its design capacity.
22:12
There is no noise now.
22:13
There is still some noise, but you can only hear it from a close distance.
22:19
Yes, but I thought the noise was coming from here.
22:21
Yes, it's the fan that's making the noise here.
22:24
Because the load here is so high that...
22:31
It regulates, it regulates...
22:32
It burned out!
22:34
No, no, it didn't.
22:35
There's smoke coming from below, look.
22:40
We'll take a look now, let it rest for a bit
22:43
Did it overheat?
22:46
No, no...
22:47
Leave it as is. There's a smell of smoke. We've already explained and demonstrated everything anyway.
22:56
I will check this...
23:04
The system and the basic principle is clear.
23:07
The fan stopped working as well.
23:11
The fan shouldn't be working until it reaches the threshold temperature.
23:18
Yeah, it has its own thermal switch there...
23:28
Core principle is what matters. All of this is homemade. But idea itself is what's important.
23:40
So that's the working principle. Ok, that's enough
Electrostatic induction: Put a 1KW charge on 1 plate of a capacitor. What does the environment do to the 2nd plate?
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Topic: Tariel kapanadze's Energy Generator (Read 367775 times)
